Sheet cutoff and feeding mechanism



March, 1941. l an. KADDELAND SHEET CUTOFF ANDFEEDING IECHANIS Filed Jan, '5, 1938 11 sheets-sheet 2 c. R. `KAbDELIImD SHEET CUTQFF' AND FEEDING IECHANISII March 4, 1941.

1l Sheets-Sheet 5 I .M s R N. MS o my wn |I I m m o I.. M-I.I.I`. wm H *nu NS l RMJ A mm. -I I 2r .QE T. II n II H I II@ .x NWN I.. H T I.I. r. I u a Rm I III R w III- -..I 2&1. I I-I I IIIIIIIIII. I I l .I -IIII I-- -I .VN 90N IPL II. II I I I II I III IIIII I n In I II-I.I.-I .:I..I.I.II... I. Il@ I I :I B I MQ n.w 5.4mm R. f I ..1 hmm -.I m2 I. I I 5 @hummm NINNI .u I h I IInr I m. www .III I r NGN I mhh I I .D II WN .I r 'd MEN h e. .n .v I I, I I I .I I. I I. II- I F HI II.. I ma E n QW n.: I n E #a I I .vw I u .I...I I I IIIIIIII II IIIII OMI m IIIHII.. HI IIII. I n m .ha .QQ NQ M I IIII .Ifi I. .I |II|\IWI.III.I ...II IIIIIhII.. I.. du I III H I I I .I III I II.I I.. I IIIII -I I. -I I- I t n@ -I Q .III I 2 2. 2 o I h: -II I.- W N P .I

l1 Sheets-Sheet 4 fl l f .IlI

C. R. KADDELAND SHEET CUTOFF AND FEEDING uEcHAuIsl Filed Jan. 5, 1958 'March 4, 1941.

mm.; 1%---- E .--I @HMI lrllldll w ntl. mln: LWAPI .mw/Jul? L M: Il n T 1 .l. lkw.. ---IN1 :--fhfxr a w s WW1 ...,.vwi.--... U nu@ I I l. .d @E E uw. .M -F uni. w 1M. l I l l l l Il m y l l INVENTOR. xI|||1||y 'Mln R. ATTORNEYS .w mu

.WMV-L b.:

March 4, 1941. c. n. KADDELAND SHEET' CUTOFF ,AND FEEDING KECHANISI March 4, 1941. c. R. KADDl-:LAND

SHEET CUTOF AND .FEEDING KECHANISII Filed Jan. 5, 1938 11 Sheets-Sheet 6 INVENTOR. -l?.KADDEL/N.

CHRIETEN ATToRNEYj Marh 4, 1941. c. R. KADBELAND 2,233,922

SHEET CUTOFF AND FEEDING ECYHANISI I v `Fi1ed Jan. 5, 1938 11 Sheets-Shea?? INVENTOR. 'CHRISTY-1N EKA DDELAND ATTORNEYS C. R. KADDELAND SHEET cU'roFF Arm FEEDING uEcHANIsu March 4, 1941.

Filed Jan. 5, 1938 l1 Sheets-Sheet 8 wm mm.

INVENTOR CHRISTEN RMADDELAND.

ATTORNEYS March 4, 1941. c. R. KADDELAND SHEET CUTOFF ANDIFEEDING HECHANISI Filed Jan. 5. 1938 11 Sheets-Sheet 9 INVENTOR.

ATTORNEYS 4 March 4, 1941. c. R. KADDELAND SHEEIl CUTOFF AND FEEDING IECHANISI und Jan. 5, 193s 11 sheets-sheet 1o mw| s w1 -W mu ...H

w T: u u MMM@ W -..In

ATTORNEY 5 March 4, 1941. c. a KADDELAND SHEET CUTOFF AND FEEDING IECHANISI Filed Jan. 5. 1938 l1 Sheets-Sheet 11 nu lm QN ll Nmm INVEITIOR. CHRISTEN RKA DELA ND BY xm f-(Mufw 15ML ATTORNEY 5 .i .undnl Il l: lill'wvi.

Patented Mar. 4, 1941 UNITED STATES APATENT OFI-ica SHEET CUTOFF AND FEEDING MECHANISM vChristen B.. Kaddeland, Shelton, Conn., assignor to Harris-Seybold-Potter Company, Cleveland, Ohio, a corporation of Delaware Application January 5, 1938, Serial No. 183,464

18 Claims. l (Cl. 164-68) intervals, regulates or determines the length of' the severedsheets.

Another object is the provision of means for lsynchronously connecting the printing lpress or other machnewith the sheet cutting and ad- 'vancing means, comprising means for adjusting the synchronous relation between these 4two means and the press, whereby the location of the forward end of each sheet at a given instant with respect to the sheet taking point of the printing press or other machine may be regulated. Y

Another object of the invention is the provisionv of means for maintaining each sheet in motion and under continuous control from the time it is severed from the web until it is taken by the press or other machine to which it is being fed. By this means the diiiiculties incident to stopping the sheet for front or side register are eliminated and the rate of acceleration of the sheet in order to bring it up to press speed is greatly reduced.

Another object is the provision of an improved mechanism for regulating the angular velocity of the sheet cutting cylinders whereby the cutting knives may be made to engage the web during the shearing operation at a speed substantially corresponding, to that of the web without aifect ing the synchronism between'the .cutting cylinders and the press.

Another object is the provision of means for detachably clutching the cutter drive, which clutching mechanism shall be -adapted to maintain synchronism between the sheet cutter-sand the press at the point of cutting regardless of their accelerating and decelerating movements.

Another object is to provide means operating at a speed equal to or slightly greater than the speed of the web and variable therewith,for exigaging the leading edge of the web before a sheet has been severed therefrom and advancing said edge, whereby the web is constantly maintained under tension while passing the sheet cutters.

the leading edge of the web is always maintained in correct relation to the cutters,-and the leading edge of the cut sheet is advanced in proper relation-to the accelerating means by which the sheet is accelerated to the speed of the printing press.

Another object is to provide a mounting for the rotating cutter blades which shall enable a shearing cut to be made which is accurately straight and perpendicular to the length of the web, and to construct the mounting in such a way as to facilitate accurate adjustment of one blade in relation to the other.

Other objects and features of novelty will .appear as I proceed with the description of that embodiment of the invention which, for the purposes of the present application, I have illustrated in the accompanying drawings, in which Fig. 1 is a sidefelevational view of a two-color printing press in connection with which my invention may be employed.

Fig. 2 is a fragmental side elevational View on a larger scale illustrating that portion of the web handling mechanism in which the cutters are located, and showing means for feeding the severed sheets toward the press. v

Fig. 3 is a vertical transverse sectional view on a still larger scale, taken substantially on the line 3 3 of Fig. 2.

Fig. 4 is a horizontal sectional view of the samev .taken substantially on the line 4-4 Yof Fig. 3.

Fig. 5 is a vertical sectional view taken substantially on the line 5-5 of Figs. 3 and 4.

Fig. 6 is ayertical sectional view taken longitudinally of the machine on the line l-I of Fig. 3 substantially, and showing the web advancing and web cutting mechanisms as well as the rearward portion of the sheet conveying mechanism.

Fig. 7 is a fragmental elevational view looking in the direction indicated by the line I-l of Fig. 4.

Fig. 8 is a vertical sectional view taken substantially on the line 8 8 of Fig. 4. Figs. 9, 10 and 11l are views similar to Fis. I showing three different change speed gear trains by which the speed of travel of the web is oonvtrolled aud the consequent length of sheet severed from the web between cuts is determined.

Fig. 12 is a side elevational view partly in longitudinal section illustrating the forward end of the sheet conveyor and the mechanism for feeding the sheets intothe prem.

Figs. 13a and 13b together verse vertical view taken substantially ontheline iS-Iofrlg. 12.

constitute a transassenza Fig. 14v is a detail plan view of the two cutshaft I3 that drive' for all parts of the web ting cylinders. Y v

Fig. 15 is a transverse sectional view of the same taken substantially on the line I 6-,|6 of Fig. 14.

l Fig. 16 is adetau sectional 'view .taken sunstantially on the line I6-I6 of Fig. 14, and

Fig. 17 is a detail sectional view of the feedin mechanism for sheets, showing the parts in a position different from that of Fig.'12.

While in Fig. 1I have illustrated the invention as applied to a printing press of a particular type, it is to be understood that this has been done v A by'way of example merely, as the invention is 15 useful in connection with printing presses of various kinds and in connection with other sheet handling machines. In Fig. 1 there is illustrated at I0 a machine base uponwhich there isvsupported a printing press II which may be of `any known character or form, and upon the same base there is supported the frame I2 of my web vfeeder and sheet cutoff mechanism. After the sheet is operated upon by the press II it may be delivered by means of a conveyor I4 to a pile of finished product I5. I6 is a supply roll of paper mounted on a pair of spindles I8 carried by the frame I2 of the feeder. The' roll I6 may be mounted in any suitable mechanism. including that disclosed in my copending application, Serial No. 183,462,- led January 5, 1938.

I'he web W oil paper or the like'is led over a guide roller 20, around tension control rollers 2| and 22, partially 'around web driving rollers 23 and 24 and an idler pressure roller 26 and downwardly between drivingxoller 24 and pressure roller 26 into position between cutting cylinders 21 and 26. Knives carried in the latter cylinders cut the web into sheets of desired lengths, and the sheets are carried between conveyor tapes 29 and 30 to the sheet feed-in rollers 3I and 32, and then to the impression cylinder 33 of the press, where the sheets may be printed in one or a pluralityl of colors, or operated upon in'fsome other manner. A two-colonprinting press is shown diagrammaticallyin Fig. 1 in order presses which perform all of the desiredopera-A tions to produce a finished product, as for example a four-color printing A press. Thereby the necessity of handling the sheets for subsequent operations is avoided, and this isv important especially in the case of certain kinds of material which are-difficult to handle in the form of sheets, and where the register of subsequent op`- erations with thosepreviously performed is dinicult and in some casespractically impossible if the sheets must be rehandled.

3 A suitable source of power such as an electric motor (not shown) may be connected -to a pulley 34 to drive a shaft 36 positioned alongside the press andghaving bearings (not shown). in

the press frame and the .feeder-frame. The

' shaft'36 isconnected to the press by 'gearing (not shown) to drive the latter at a desired speed outside 'of the main frame. It is through this The shaft 36 at'its feeder end feeder and cuto'i mechanism is transmitted.

- y The web feed l Shaft 3B is provided with splines` 36 at its upper end which engage internal splines in a a driving worm 42 and is mounted at its ends in a housing`43. The upper end of shaft 4I is equipped with a pairof radial and thrust bearings 44 held on the end of theshaft by a nut 46. The outer races of these bearings are engaged by a clamp consisting of a flanged sleeve 46 and a cap 41 held together by screws 46, the sleeve 46 being provided-with a keyway 49 which engages the end of a screw 60 mounted in the housing 43 to prevent the sleeve 46 from turning. The sleeve 46 however is movable up and down within its opening in the housing. The cap 41 has a threaded extension 6I which engages threads in a sleeve 62 to which is keyed a hand wheel 53. A head 64 at lthe upper end of the housing is fastened thereto by screws"-66.

'I'his head engages a flange at the lower end of the sleeve 62 and carries a nut 66 on its threaded upper end which is adapted to be threaded'down against the hub of hand wheel 63. By this means the sleeve 62 is held against vertical movement in either direction. A nut 61 mounted on the constricted upper end of extension 6I limits the downward movement of the latter.

Near the lower end of shaft 4I there is an antifriction bearing 58 held in place by a nut 59 and serving to center the shaft 4I inan opening 60 in the lower part of housing 43. Fastened to housing 43 by means of screws 6I is a smaller housing 62 having an upwardly extending portion 63 which fits in the lower 'part of the opening .60.A This latter housing has an opening for the lower end of shaft 4I and is provided with a stuilng box .64 of usual design to prevent the downward seepage of oil used on the `--dx'iving worm and' in the anti-friction bearings. 'I'he housing 62V also has a downwardly extending portion provided with a flange 65 to which are bolted two clamp rings 66 for supporting the outer race off an anti-friction bearing 61 through vwhich the sleeve 40 previously mentioned slidably extends.

From the foregoing description it will be apparent that the shaft 4I may be raised and lowered by rotation of the hand wheel 63 while its driving connection to shaft 38 will be preserved by virtue of the sliding joints between the splines 2| and those carried internally by sleeve 40, as well as by virtue of the sliding connection between the sleeve 40 andthe. inner race of anti,

friction bearing 61.

Thedriving worm 42 meshes with a worm wheel 66 which is rotatably mounted upon shaft I3. This shaft is a relatively short shaft mount- 'ed outsideofthe feeder frame I2 in the housing 43. A combination 'radial and thrust anti-friction bearing 10 supports one end of the shaft in the housing and a'radial bearing 1I supports the other end. d y

Keyed to shaft I3 is a collar 12'provided with two oppositely disposed notches which during normal operation of the machine are engaged by a pair of pawls 13 that are carried on pins in the worm wheel 66 and are pressed into the notches in collar 12 by springs 14.

'I'he shaft I3, as described more fully later, serves to drive the web feeding mechanism, the

sheet cutters, and the sheet conveying mechanism. By means of the vertical adjustment of shaft 4I and the worm and worm wheel'connection 42, 58, the angular relationship of shaft I3 to shaft 4| may be varied, as desired, during operation of the machine, thus permitting adjustment of the relationship of the sheet cutters and sheet conveying mechanism to the press.' Furthermore the two-way clutch, consisting of pawls 13 and collar 12, serves to maintain a desired angular relationship between shaft I3 and shaft 4| independently of the variable character of the load on shaft |3.

To the outer end ofvshaft I3 is keyed a gear 15 which is removable and interchangeable with gears of different size, the one selected being dependent upon the length of sheet to becut, as

hereinafter described. This gear 15 meshes with an idler gear 16 which in turn meshes with a gear 11 keyed to a shaft 18. The shaft 18 is supported near its outer endby a bracket 19, (see Figs. 4 and 8) .bol-ted to a housing 80 which in turn is bolted to the feeder frame I2. At its inner end the shaft 18 is journaled in the frame I2. The idler gea-r 16 is carried on an .arm 8|,

'Fig. '1, which is pivotally mounted on the slaft gears 93 and 94 mounted on studs 95 and 96 respectively to drive a gear 91 which is journaled on a stud 98 in' the frame. Gear 91 drives a gear 99 fixed to the roller 23 and a gear |00 Xed to roller 24.

Meshing with the gear 94 is another gear |0| journaled on a stud |02 in the frame. A bevel gear |03 isblted to gear |0I, and drives a bevel pinion |04 keyed to the end of shaft |05 which extends towards the'front of the machine and serves to drive the devices which control the tension of web W. These devices are not herein illustrated in detail, but a full disclosure with regear 91. Cooperating with rollers 23 and 24 arev idler rollers 25 and 26 which serve as pressure rollers. The roller 25 is supported at its ends in arms I|3 and I|4 which are pivotally mounted respectively on studs ||5 and ||6 in the feeder frame.

bears against bothof the rollers 23 and 24, the

web W extending around the roller 25 and bej tween that roller and the rollers 23 and 24. The roller- 26 is similarly mounted in arms ||1 and ||8 pivotally mounted on studs ||9 and |20. The studs ||5, |I6, ||9 and |20 are preferably made eccentric to permit adjusting the mountings for rollers 25 and 26 vso as to bring those rollers into position and parallelism. Y

Each of the arms supporting the rollers 25 J and 26 is formed at its upper endrwith a .bifur- The length lof the arms and the loca-V` 4tion of the studs are such that the roller 25 the pin |23 in the bifurcated end ofarm I`I'I.V

The rod |22 ls provided with ahead |01, a spring |24 and a collar |25. The pair of arms I|4 and |I are supplied with similar connections for the purpose-of urging the pressure rollers 25 and 26 -toward operative position.

Rotatably journaled in-the feeder frame is a shaft |26, to one end ofwhich is fastened a hand lever |21, Figs. 2 and 4. Shaft |26 is provided `with t portions |28 which cooperate with the heads |01 on rods |22 and with fiat surfaces on the upwardly extending portions of arms |'|1 and ||8. When the shaft |26 is rotated through a small angle it actsvto separate the heads |01 and the upper parts of arms I1 and ||8, and tocompress the springs |24, thus tending to pull the upper'ends of the arms together and to separate the lower ends'of these arms and by this means to move the pressure rollers 25 and 26 awj'ay from the web driving rollers 23 and 24. By this means the web of paper W may be threaded around and between the rollers 23, 24, 25 and 26 when the machine is set up for operation.

From the foregoing it will be seen that in the normal operation of the machine -the web feeding rollers 23 and 24 and the web tension controlling shaft I will be driven at;A constant speeds, and that these speeds will vary, depending upon the size of the interchangeable gear which is employed. By varying the speed of travel of the web different lengths of web are caused to pass thecutting knives between successive operations of those knives, thev latter being so connected to shaft `I3 as to perform one cutting operation for each revolution of this shaft, and therefore of the press, as later described. By the use of the'invention therefore it is possible to cut from the web sheets of any one of a plurality of different lengths, depending upon the size of the gear 15 whichis employed.

Cuto mechanism At the end of shaft I3 toward the cutting cylinders is keyed a hub |35 on .which is mounted a driving disk |36 held in place by a pair of clamping segments |31 bolted to the driving disk so as to clamp a flange |38 of hub |35. The disk |36 is provided with projections |39 which form a slot |40. 'I'his slot engages a block |4| carried on a pin |42 in a driven disk |43 which is keyed to the end of the shaft |44 on which the cutting vcylinder 21 is ired. Thus, the short'shaft I3,

by means of slot |40 and block |4I, drives the cutting cylinder 21 while permitting the shaft I3 i to be offset with respect to the shaft |44 and to be at a slight angle thereto. The disks |36 and |43 and their associated parts together constitute a Whitworth crank mechanism. When the axes of the ltwo shafts I3 and |44 meet, the drive from shaft I3 to shaft |44 is ata constant speed. When 'the two shafts are offset more or less, shaft |44 is caused to have lthe same number of revolutions per minute as shaft I3, but the motion is not regular, that is to say the shaft l 44 in each revolution has a period of acceleration and one Y',

n absolute synchronism to assure accuracy of cutmeans of the cover plates |54 and |55, bolted ting action. Cylinders 21 and 28 are provided with cutting knives4 |56 and |51 respectively which are mounted at angles to their cylinder axes complementary to the angles of the cylinder axes with the perpendicular to the direction of web travel, whereby during the cutting operation a shearing action is obtained which begins at one side edge of the web and proceeds across the latter arriving at the other side after the cutting cylinders have rotated an amount depending upon their inclination.

In known cutting machines of this type it has been customary to provide a plain surface on each of the cutting cylinders to which the knife is fastened, 'this plain surface having the desired singularity toA the cylinder axis. It is a weil known fact that blades mounted in this manner produce a slightly bowed cut rather than an accurate straight-line cut.

According to my invention an accurate straightline-cut across the web is obtained by providing machined surfaces on the cuting cylinders which are helical in contour with the pitch angle of the helix complementary to the angle of inclination of the cylinders. Furthermore, I provide very simple means.v for making slight adjustments of one blade to attain accurate cooperation with the other blade which may -be necessitated because of small inaccuracies in the` machining of the' helical surfaces.

The knife ist, which is somewhat iiexibie, is xedly supported upon'a rib |60 projecting from va ilattened part of cylinder 21. The helical contour of thel blade is secured by machining a side wall of rib |60 to a helical contour and drawing .up the flexible blade to that wall by means of studs |61. Blade |51 is carried by a similar heli- 'cally machined rib |6| projecting from a atl tened part of cylinder26. This blade', although rigidly mounted upon its rib. is capable of slight l adjustment with respect te the rib, as illustrated particularly in Fig. -16. Slots |62 are formed 'through-rib |6| at regular intervals along the linebf that rib for the reception of studs |63 whieh extend into threaded openings in the blade |51. Also, at the ends of the blade there are socketsl64 forthe reception of set screws |65 which are adapted to bear against the flattened adapted to bear'againsi-oneside'of rib |6|,. By i properly adjusting these screws |66 the cutting vedge of blade' |51 may be brought into accurate register -with the cutting edge of' blade |56 at closely spaced :points all vacross-the length of the blades. In otherwords the cutting edge of blade |61 may be caused to, follow a helical line precisely like that of blade |56-and cooperating therewith with a high degree of precision.` This construction, combined with the spiral gears |58 and |59 which insure accurate angular relationship between the cylinders 21 and 28, and combined withthe inclination of thecylinder axes, brings about a straight-line cut transversely of `the web, that is if the speed of movement of the knives at the point of cut be the same as the speed of travel of the web, which is true of my machine because of the character of the drive to the cutters, that is through the Whitworth crank mechanism previously described. When the adjustment of the various set screws |66 is v effected to a nicety, the studs |63 are tightened sired to cut from the web. In Figs. 9,'10 and. 11

three such gears of different sizes are illustrated, that of Fig. being lnumbered 15' and being larger than the gear of Fig. 9, while that of Fig 1l is numbered 15" and is smaller than gear 15 of Fig. 9. `The shaft |3 is driven at a constant speed and in fixed ratio to the speed of the press because of its direct connection to the latter. 'I'his ratio mustbe one-to-one in the illustrated form of the invention since the shaft I3 is connected through the slot |39 and block |4| with the cutting cylinders, and the latter must cut one sheet for each sheet taken by the press.

Since the gear 15 is directly connected to the web supply mechanism and the web feeding rollers 23 and 24, its diameter-will determine the length of the web measured off by these feeding rollers. Therefore it will determine the length of web fed between the cutting knives at each revolution of the latter and will therefore determine the length of sheet severed from the web. The gear 15 is also connected with tape driving rollers |13- and 203, and thereforedetermines the speed with which the cut sheets marked S in the drawings .are forwarded. These tapes are preferably driven slightly faster than the web, and for this reason the cut sheets S will be forwarded slightly faster than the web withthe result that a slight gap will develop between successive sheets as they move toward the press.

' It is apparent that for a particular speed of web, that is for a particular length of. sheet, the

cutting knives may be driven with a constant angular velocity resulting in a peripheral speed equal to the linear speed of the web, in which case they will travel in synchronism with the web as they make the cut and will cause no buckling of the web material nor any angularity of the cut. In accordance with my invention, when the web is driven at a different speed than that required for the particular length of sheet above mentioned, that is when the sheetA length is either greater than or less than the particular length above referred to, the angular speed of the cutting knives is varied during each rotation in such a manner as to cause' their peripheral speed to coincide with the speed of the web at the moment of cut while the interval between cuts remains unchanged as. determined by the `speed of rotation of .shaft I3. In bringing about ,this result the drive between the shaft n. and the lslot and block are located one quarter turn in advance of the cutting knives so that they are at the low points of their travel at the time the cutting knives are cooperating to shear the web.'

The preferred arrangement is that the shafts I3 and |44 are substantially concentric when the size of sheet -being cut is-the mean between the extremes of the capacity of the machine. This condition is illustrated in Figs.`3, 4, 7 and 9. Under these conditions the eiective radius of the driving disk |36 is equal to that of the driven disk, and the knives rotate with uniform speed.

If it is desired to set .the machine for cutting a longer sheet the gear 15V is replaced with a larger gear as shown at 15' in Fig. 10, and the shaft I3 is raised so as to increase the effective radius of the driving disk |36 at the time the cut is made, and therefore to imparta higher speed to the cutting knives at that time. When 'it is desired to cut a shorter sheet the gear 15 is replaced by a smaller gear, for example 15" of Fig, 11, and shaft I3 is lowered with the result that the effective'radius of the driving disk |36 at the time the cut is made is less than that of the driven disk |43, and the knives are givena correspondingly slower speed at that time. The design is such that the cut is made in the first instance while the knives are at the maximum speed which they attain in` each rotation and in the second instance while the knives are at their minimum speed. Thus they shear the web during the transition from acceleration to deceleration in one case and from deceleration to acceleration in the other, that is, during the time their velocity is momentarilylsubstantially constant.

. In order that shaft I3 may be raised and lowered accurately to the4 desired position for adjusting the cutting knives to the desired speed of web travel, the housing 80 is provided with a pair of gibs 261 which are secured to the housing by bolts. 'I'he worm wheel housing 43 is formed with anges 268 which-cooperate with the gibs 261, so that housing 43 may be slid up and down- One relative to housing 80 under the gibs 261. of the gibs carries a scale 269 and the housing 43 has an index mark 210 by means of which the relative position of the housing 43 may be read. Between the anges 268 and below the housing 43 there is a screw 21|, the upper end of which bears against the lower side of the housing 43. This screwextends through lugs 212 and 213 formed in the housing 80, and the lug 213 is internally threaded to receive the threads of the screw.

The l-atter has a hand wheel 214 attached to its lower end. Thus, rotation of the hand wheel 214 in one direction will raise the housing 43 and in the other direction will permit the housing to.

descend by gravity.

The cutting cylinder are provided with shooi'lys or web guides of known design located directly above the cutting point of the knife cylinders; Stationary guides |10 arranged below the`cutting point direct the freshly cut edge of the web along its proper path. Guides |10 are secured at intervals on the rods I1| which are supported in the side frames of the feeder. After the knives have cut a sheet from the web the latter continues to be'fedalong by web driving rollers 23 and 24 and the cutting cylinders have no further 'action upon the web, since the distance between the centers of rotation of the cutting cylinders is somewhat greater than the body diameter of i one of them. The web travels between the guides and continues to be fed by the feeding rollers until its front edge enters the bight between a roller |12 and tapes which extend around and are driven by a roller |13.

Referring again to Fig. 6, gear 86 -meshes n its lower side with an intermediate gear '|11 jourl naled on a stud |18 in frame I2. `This idler gear |11 drives a gear |19 fixed on the tape driving roller |13, which in turn drives a gear |8I fixed" on the roller |12. Y

After the sheets have been cut by the cutting vknives they are conveyed by tapes to a point ad,

jacent the impression cylinder of the press and thence intothe latter. YThe lower tapes 30 (see particularly Figs. 6 and 12) are trained around individual tightening rollers |82 mounted to rotate on spring actuated arms |86 carried by shaft |84, which extends between the side frame memward the press to a roller |81 rotatably jour- A naled in frame members |88 and |89 bolted to the frame of the press. These frame members are connected together by tie rods |90, `|9|, |92 and |93, and they are connected to the feeder frame by bars |94 and |95 supported in appropriate brackets at their ends. From the roller |81 the tapes 30 return to the tightening rollers |82.

' The upper tapes 29 are trained about an idler roller |98, tightening rollers |99 supported on a shaft 200 in a manner similar to the rollers |82, and from there around a tape driving roller from which point they extend toward the press and around a.roller 202 rotatablyjournaled in frame members |88 and |89. From this point the A enters the bight between the roller |12 and the tapes passingover roller |13 a slight tension is placed on the web so as to keep it taut prior to the cutting of the next sheet. In other Words the speed vof the tapes is slightly greater than the speed of the web feeding rollers and a slight slippage between the tapes and the web occurs. Furthermore, since the drive for the tapes is taken from gear 86 which in turn is driven by the interchangeable. gear 15,v the speed of-thetapes will depend upon the size of the latter gear and will always bear a given relation to the speed of the web. In this way substantially uniform tension may be maintained on the web without regard to the speed of the latter.

Referring now to the feed-in mechanism em# ployed for transferring sheets from the forward end of the conveyor, there is a rod 2|0 extending between the frame members A |88 and |89 on which are located brackets 2|| which'support a feed plate 2|2 that is formed along its rear edge is driven by the lower tapes 30 are arranged to pass. The

held in place vby set screws 2li. These feed wheelsv are formed with a portion of their periph- 'with slots 2| 3 through which the uppermms of forward end of the feed plate 2|2 is Supported .ion the flattened 'upper surface of rody |92.. and extends to within a short distance of the surface of the impression cylinder. 'I'he front portion of the plate is slotted so thatthe open sheet grip-' pers of the impression cylinder may pass through the plate. Y

In the upper-portion ofthe frame members |88 and |03 thereis :lournaled a shaft 2I4 to which are keyed a plurality of feed wheelsl 3| eries higher thanA the remainder for the purpose of engagingthe'upper surface oi' a sheet lying on the feed plate 2|2 and driving the sheet forward during .-a portion 'of a revolution of the feed wheels' suiclent vto insurel the sheet reaching the grlppers on the impression cylinder of the press. Although I have not illustrated sheet stpps on the impression cylinder, such stops may be provided and the sheet' may be driven against themV at a speed slightly greater than the speed of the' impression cylinder so as to produce a -slight buckling of the sheet,.al1 in known manner, and as shownin' Patent No. l,30'|,969, issued to A. F.

Harris en June 24; 1919.

Below the .feed plate and oscillatably mounted.

in the frame members |30 and |99 is a shaft 2I1 which supports a series of lower feed roller arms 2 I3 each of which carriesat its upper end a freely turning roller 32. 'Ihese arms are freely mounted on the shaft 2 I1, and each one is formed with two ears 220 which are positioned on opposite sides of a lug 22| formed in collars 222 which are' keyed to the shaft 2|1. A spring 223 is interposed between one of the ears 220 and the lug 22| and a screw 224 is located in the other 'ear, by means 'of t 7which the angular position of the arms 2|! may be adjusted with relation tothe shaft 2|1 so that all the rollers 2|! may be setto have angular ing the 'lower' surface of a sheet lying on the feed -positions that are identical.

Near oneend of'shaft 2|`| and inside the frame member |09 'there is keyed to the shaft a lever l225 carrying a follower 225 which cooperates with I a cam 221 `ilxed toa shaft 200 which rotates once for each revolution of the press. By this means theshaft 2|1 is given a short oscillation so that ythe 'rollers 32Imay vbe raised through appropriate openings inthe feed plate toa position contact-y plate 2 I2 and maybe lowered to a positionbelow the feed plate to'break contact with the sheet. j Each time a'sheet lis brought into properl position. the lower roller- $32 rise intocooperation with `the higheljpoltionspf the peripheries'of lthe'upptr ed vvlyieelfs 3|y`tol 'pinch the shetbetween these rlle'rs wheelsad driveit forward; I Atweoli -ehd ofthe' 'Shaft 2|`| just. inside they" spring levers ziz's is formed with a 'mme whichv ihreugn'th'mediuxn of springs ne acting' against j 6-5 `ltwistingmijn; merrains tend to. rotatelw'ftl 211 andfkeep thev roller 226 in contact vwith* the"cam' 221.'' The outer endof'each-of the engages astep zal in the rod m.- By this means 'the upward' movementof Athe rollers 2 I3 "may be limited independently ofthe shape of the cam 221.

Drive for thesheet transfer mechanism and ll associatear parts comes from the impression cylinder 33A which it-may be assumed carries theusual geanthe vlatter meshing with an idler gear 201` "aassgeaa (see Fig. 1) mounted ontne frame of the presss and driving another idler gear 23| which in turn Vdrives a gear 232. The latter gear is carried upon a shaft 200which ismounted in a bracket 2.09, see Fig. 13b. On the inner side of gear 232V there is bolted another gear 233 of the same pitch digear -234 drives a gear 231 keyed to one end of the upper feed wheel shaft 214. It is apparent therefore that the upper feed wheels are driven at constant speed in synchronism with the operation ofthe press.' 1 l Thelparts are preferably proportioned so that the upper feed wheelsl 3| makev a whole number that successive sheets mayl be fed in -identical manner as determined by the position of the leading end of the high portion of the feed wheel periphery. Itis also desirable that the peripheral speed of the feed wheels be equal to or slightly greater than that of the impression cylinder in order that the sheets may .be positioned on the cylinder substantially independently of the time of closing of the cylinder grippers and avoid inter- .ference with the latter. Y

on a shaft 242 mounted in the frame of the press..

and when Aitsif'orward edge reaches the proper position, indicated in Fig. 1'7 sheet grippers 243 close upon it and carry it into the press. Suitable means may be provided for stopping the feeder in the event of a failureato feed a. sheet to the impression cylinder or in the "event of a crumpled or folded sheet being advanced to the impression cylinder.- While thse features of the invention .form no part of the present application, an absence-of-sheet detector is illustrated at '244 and a sheet choke at 245. These parts are operatively connected with a shaft'246 and function through connections and controls,'not shown', to'actuate a rod241 which moves longitudinally to throwout thefeederclutch and applythe brake.` Simultaneouslyanother control rod 248, Fig. 2,v may be actuated to trip'fthe press.

'I'he control rod 241 extends back toward the web feeding and sheet cutoff mechanism and is attached-to an arm 249 keyed to a shaft 250 l9..SHMSHJPSi mounted at'one end in the feeder frame I2 and at'the other end 'in a bracket 25| x (FIEL Qlbltdto the sttionryj housing 80. At 'theother end of vthis shaft 'iskeyed a lever :252 'which isjoi'ned by a' link V253 to an arm 254 pinned to a' shortI lshii'.i't"2."i."i'looselyc'arried in thebearing vplatev 95`which forms part of housing' 43.

The outer end rof short shaft 2551s formed into a widened and flattened wing`250 which occupies a position between the lower ends of a pair of brake shoe'supports 251 pivotally mounted on pins 259 supported in the plate 85 andcarrying lbrake shoes 259 which 'engage a brake drum 260 keyed to shaft I3. `When: the flattened portion 250 of shaft'255 lis in a horizontal positionas shown in Fig. 8, the brake shoes are spaced apart and released( from engagement with the vbrake ameter which meshes with an idler gear 234 jour- 'naled on a stud 235 carried in a bearing bracket 236 bolted to the frame member |89. The idler of revolutions for each sheet fed to the press so drum. When the at portion occupies a vertical position the brake shoes are allowed to come together'under the action of springs 26I and engage the brake drum to stop shaft I3.

At the inherend of short shaft 255 there is keyed a pinion 262 which engages wide teeth 263 in a collar 264 which is rotatable on a sleeve 2'65 mounted in a stationary PQSition on the inner face of plate 65. The inner surface of the collar 264 and the outer surface of the sleeve 265 arev v provided with steep pitch threads, whereby rotation of the collar 264 by the gear 262 will cause the collar to move in and out lengthwise of shaft I3. Movement of the collar 264 inward causes the collar to engage bevel surfaces on the pawls 13 and forces those pawlsoutwardly to break their engagement with the notches in the collar 12, thus disconnecting the drive between the worm wheel and the shaft I3.

Thus, movement of the control rod 241 in the throw-off direction, that is to the left in Fig. l2, causes movement of the link 253 to the right in Figs. '1 and 8*, with the result that the short shaft 255 is rotated bringing the attened end 256 to a vertical position and permitting the brake shoes to grip the brake drum a't the same time that the gear 262 rotates the collar 264 causing it to move endwise of theshaft I3 and to force the pawls 13 out of the ntches. Since the entire web feeding and sheet cutoff mechanisms including the forwarding 'tapes are driven from shaft I3 the stopping of this shaft disables the entire feeder.

After the operation of the feeder has been automatically stopped in this manner its operation may be resumed by the manual actuation of a hand lever 266, Fig. 2, indirectly connected to control rod 241. When vthis rod is moved toward the right in'that flgure.link253 is shifted back to-its position of Fig.'8, when i .worth crank mechanism, imposes areverse load the brake shoes 259 are retracted, freeing the shaft I3. `At the same time the short shaft 255 is rotated, causing pinion 262 to rotate sleeve 264 so as to back it'l away from contact with the pawls 13, whereupon the springs 14 -shift the pawls into operative relation with the collar 12 as soon as the worm wheel 66 comes into the proper angular position. working in opposition to each other insure a positive connection between the worm wheel nand the shaft at all times, which is quite eential inasmuch as the acceleration and deceleration of the cutting cylinders, on accoimt of the Whitupon the worm wheelperiodically.

' Operation y Before starting the machine a gear 15 is se- Alected, of suitable size to correspond with the length of sheet which it is desired to cut from tween the cutting cylinders into the blght of theV rollers |12 and |13.

After thus .threading the machine the press may be started and operated at idle speed. The hand lever 266 is then moved to its righthand position to cause control rod 241 to release the The two Dawls 13 brake and engage the clutch of the feeder. This starts the feeding of the web and the cutting of the sheets. The hand lever is held in this position until the first sheet cut from the web passes has reached av position between the feeding rollers 3| and 32 these rollers engage the sheet, accelerate it to a speed equalto or slightly greater than that of the impression cylinder. and continue to feed it forward until its leading edge is in position to be taken by the grippers of the impression cylinder. The precise position of the forward edge of the sheet at thetime when the sheet is engaged by the feedingrollers may be altered or adjustedby the adjustment of worm 42 vertically with respect to worm wheel 68 by means of hand wheel 53. This same adjustment of course controls the position of the forward edge of the sheet at the time it is taken by the sheet grippers 243, and in this way the position of the printing on the sheet may be altered slightly or exact positioning of the sheetK with respect to .the grippers may be effected.

vThe sheet, after it is severed from the web, is

grippers 243 of the impression cylinder. Hence its alignment and register are properly main n tained at all times.

While I have illustrated cutting mechanism in which the cutting cylinders each carry only one knife and make one revolution for each sheet cut, cylinders carrying two or more knives T may be employed in which case appropriate gearing could be provided between the driven disk of my Whitworth driving mechanism and the cutting cylinders thus resulting ina plurality of changes from .maximum to minimum speed in each revolution of the cutting cylinders.

It is also apparent that a plurality of webs,

associated by known means, may be fed to the cutting knives and thus a plurality of sheets severed at the same time for feeding to folding or associated machines.

Having thus described my invention, I claim: 1. In mechanism for cutting sheets from a web and feeding them to a machine for oper- ,ating upon them, a shaft geared to said ma- ,chinev to rotate at a speed proportional to the speed of the machine, rotary cutting knives driven from said shaft to sever a sheet from the' web for each sheet operated upon by the machine, a control for the driving means of said knives adapted to regulate the speed of the knives at the instant of cutting to correspond approximately with the web speed, means comprising change speed gearing driven from said shaft to convey the web at diierent selected speedsmeans also comprising said change speed .gearing .driven from s'aid shaft to convey the severed sheets toward the 'machine at speeds proportional to and at least as great as the different selected web speeds, and feed-'iin rollers rotating with a peripheral speed equal to or greater than the highest selected speed of said sheet conveying means adapted to grip each sheet before it is released by said sheet conveying means and to forward it to said machine.

l 2. In mechanism for cutting sheets from a web shaft and driven thereby in a given rotative anv gular relation thereto, means permitting movement of the second shaft in a direction transverse .to its axis without disturbing the operative connections between the shafts nor their rotative angular relation, means comprising change -speed gearing driven from said second shaft to convey the web at any one of a plurality of dii'- ferent speeds, a pair of intergeared rotary cutting knives, means for driving one of said knives from said second shaft comprising a Whitworth crank mechanism one element of which is carried by `said driven knife and the other by said second shaft, and means for adjusting said second shaft in a direction transverse to its axis.

3. In mechanism for cutting sheets from a web and feeding them to a machine operating at a given speed, ra first shaft operatively connected with said machine to rotate in synchronism therewith, a second shaft at right angles to the rst shaft and geared thereto, means permitting movement of the second shaft in a direction transverse to its axis without disturbing the op-f erative connections between the shafts nor their rotative angular relation,I means comprising change speed gearing driven from said second shaft to convey the web at any one of a plurality of different speeds, a pair of intergeared rotary cutting knives', means for driving one of said knives from said second shaft comprising a Whitworth crank mechanism one element of which is carried by said driven knife and the other by said second shaft, and means for adjusting said second shaiit in a direction transverse to its axis.

4. Mechanism as claimed in claim 3 wherein the shafts are gea-red together by a worm wheel on said second shaft and a worm on said-rst shaft and wherein the means permitting mgvement of said secondshaft in a directiontransverse to its axis comprises @housing-supporting said second shaft, worm and worm wheel, said housing being movable in a direction. transverse to the axis of said second shaft.

5. In mechanism of the class described a machine for operating upon sheets, a web supply.

means for conveying the `web at different selecta edspeeds, rotary.. cutting knives for severing sheets from the web, adjustable means for varying the speed of said lknives during each rotation to correspond approximately to web speed at the instant of cutting, means engaging the leading edge of the web before a sheet is severed for .conveying the severed sheet from the cutting knives to the machine incontrolled'relation to the timing of the machine, driving connections between said adjustable means and .the machine forl driving the knives in timed rel-ation to the .machine said connections comprising a driven element having fixed angular relation with the cutting knives at the moment of cutting and a driving element having fixed angular relationto the machine, said connections being arranged to permit angular adjustment of said elements relative to each other while in operation, and means for adjusting one of said elements relative to the other to vary the angular relation between the machine and the cutting knives while the latter are in operation. l.

6. In mechanism of the class described, a machine for operating uponsheets,` a web supply, rotary cutting kniv'esior severing sheets iff-rom the web, means engaging the leading edge ofthe web before a sheet is severed for conveying the severed sheet from'the cutting knives to themachine in controlled relation to the timing of the machine, driving connections between the cutting knives and the vmachine for driving the knives in timed relation tothe machine, said connections comprising a worm and worm wheel, and means for adjusting said Worm axially to vary the angular relation between the machine and the cutting knives while the latter are in opera- A tion.

' '1. In mechanism of .the class described, acutter` for severing sheets from a web, ashaft, a worm wheel thereon, -a driven worm meshing with said worm Wheel, a Whitworth crank mech-v anism at one end of said shaft for operating said" cutter, means for moving said shaft, worm wheel and 'worm bodily in a direction parallel to the axis of said worm for varying the motion delivered by said crank mechanism to said cutter, and means for moving said worm axially relative to' the worm wheel.

8. In a machine for cutting sheets from a web and feeding them to a printing machine or the like, a shaft, sheet cutting mechanism, means operated by said shaft `for driving said cutting mechanism with an irregular motion and in timed relation to said machine, gearing for rotating said shaft in synchronism with said machine at a constant rate of speed, and a clutch for connecting said gearing Ito said shaft, said clutch comprising rtwovpawls one adapted to transmit motion in one direction and the other adapted to transmit motion in the opposite direction.

9. In a machine for cutting sheets from a web and feeding them to a printin'gmachine orrthe like, a shaft, sheet cutting mechanism, means `operated by said shaft for saidl cutting mechanism with an irregular motion and in timed relation to said machine, gearing for rotating said shaft in synchronism with said machine at a constant rate of speed, a clutch for connecting said gearing to said shaft, said clutch comprising two pawls one adapted to transmit motion in one direction and the other adapted to transmit motion in the opposite direction, and throw-off means arranged to withdraw both of said pawls simultaneously.

10. In a machine of the class described, means for cutting sheets from a traveling web, means for moving the sheets seriatim toward a rotating cylinder of a printing press at a speed' less than the peripheral speed of said cylinder, and roller means adjacent the cylinder `operating to grip each sheet in turn and advance it to the cylinder at a speed equal to or greater .than the peripheral speed of said cylinder, said roller means comprising a continuously driven first roller and \a second roller, and means for moving one of said lrollers toward and away from theother to bringthe rollers into cooperative relation with each other at timeds intervals.

1f1. In a mechanism for cutting sheets of different lengths from a web movable at different y speeds and feeding them to a printing press or other machine for operating upon the sheets, ro-

tating cutters arranged to sever sheets from the moving web, conveying means for .the severed sheets comprising endless tapes operating above Y and below the sheets at a speed slightly greater being arranged to take .the forward ends of the sheets before they are severed from the web, whereby the web is 'tensioned substantially uniformly for all web speeds, a feed plate onto which the sheets are delivered by said tapes, and feed-in rollers adapted to gri-p a sheet on .the feed plate and drive it forward toward the said machine at a higher speed.

12. In mechanism for cutting sheets of different lengths from a web movable at different speeds an'd feeding them to a prin-ting press or other machine for operating upon .the sheets, rotating cutters arranged to sever sheets from the moving web, conveying means for the severed sheets comprising endless tape.: operating above and below the sheets at a speed slightly greater than and proportional to web' speed, said tapes being arranged to take the forward ends of the sheets before they are severed from .the web, whereby the web is tensioned substantially uniformly for all web speeds, a feed plate onto which the sheets are delivered by said tapes, and feed-in rollers adapted to grip a sheet on the feed plate before its rear end is released by said tapes, said rollers being driven at a higher rate of speed than said tapes whereby the sheet is drawn forward out4 of the tapes and driven toward the said machine.

13. In mechanism for cutting sheets of diiferent lengths from a web movable at different speeds and feeding them to a printing press or other machine for operating upon the sheets, rotating cutters arranged to sever sheets from the moving web, conveying means for the severed sheets comprising endless tapes operating above and below the sheets at a speed slightly greater than and proportional to web speed, said tapes being arranged to take the forward-ends of .the sheets before they are severed from the web, wherebyv -the web is tensioned substantially uniformly for all web speeds a feed plate onto which the sheets are delivered by said tapes, and feed-in rollers adapted to grip a sheet on .the feed plate before its rear end is released by said tapes, said rollers being driven at a higher rate of speed than said tapes whereby the sheet is drawn forward out of the tapes and driven toward the said machine, said rollers further being arranged to maintain their grip upon the sheet until the latter is taken by the printing press, whereby the sheets are continuously under con-trol from the time of cutting .to -the time they are taken by the press.

14. In mechanism for cutting sheets of different lengths from a web movable at diierent speeds and feeding them to the impression cylinder of a printing press or other machine for operating upon the sheets, rotating cutters arranged to sever sheets from the moving web, conveying means for the severed sheets comprising endless tapes operating above and below the sheets to convey the sheets at a speed proportional to web speed and less than the peripheral speed of said impression cylinder, said tapes being arranged to take the forward ends of the sheets before they are severed from the web, a feed plate onto which the sheets are delivered by said'tapes, and feed-in rollers adapted to grip a. sheet on the feed plate before its rear end is relsed by said tapes, said rollers being driven at a speed equal .toor greater than the peripheral speed of said impression cylinder, whereby the sheet is drawn forward out of the tapes and driven toward said impression` cylinder.

15. In mechanism for cutting sheets of different lengths from a web movable at diierent speeds and feeding them .to a printing press or other machine for operating upon the sheets, ro-l tating cutters arranged to sever sheets from the moving web, conveying means for ythe severed sheets comprising endless tapes operating above and below vthe sheets-at a speed slightly greater than and proportional to web speed, said tapes being arranged .to take the forward ends of .the sheets before they are severed from the web, a feed plate onto which the sheets are delivered by said tapes, forward roller supports for said endless tapes, said supports being offset from each other in a forward and rearward direction so that there is no pinching of the sheets by the forward end of the tape conveyor, and feed-in rollers adapted to grip a sheet on the feed plate before it is released by said tapes, pull it forward out of the tapes, `and drive it forwardtoward the said machine.

16. In mechanism for cutting sheets from a web and feeding them to a machine for operating upon them, a driving member, means comprising change speed gearing driven by said member to convey the web at different selected speeds, ro-

tary cutting knives for cutting sheets from .the web arranged to have a speed corresponding substantially to that of the web during their cutting action, sheet conveying means driven by said member through said change speed gearing with speeds proportional to and slightly greater than said different selected speeds, said sheet conveying means being arranged to engage the leading edge of the web before each sheet is cut, whereby the leading portion of the web is held under substantially the same tension prior to the cutting of each sheet regardless ofthe speed selected. 17. In a machine for cutting sheets from a moving web and delivering them at a given rate of speed regardless of lthe length of the sheets, means for cutting sheets of a selected length from the moving web, conveyor means for moving the severed sheets seriatim away fromvthe cutting means at a speed less than said given rate of speed and proportional to the length of sheet being cut, and roller means adjacent the forward end of said conveyor means to grip each sheet in turn and advance it at said given rate of speed.

18. In a. machine of the class described, means for cutting from a moving web sheets of a certain maximum length or of some lesser selected length, conveyor means for moving the severed sheets seriatim away from the cutting means at a speed proportional to the length of sheet being cut, and roller means/adjacent Ithe forward end ofsaid conveyor means to grip each sheet in turn and deliver it at a predetermined speed equal to or greater than the maximum speed of movement of sheets on said conveyor means, whereby sheets are delivered at a uniform rate regardless of .the

length of sheet being cut.

CHRISTEN R. KADDELAND. 

